In terrestrial ecosystems '', advertising its powerful defences, scent glands near the tail, by raising its tail and displaying its warning coloration Aposematism is widespread in insects but less so in
vertebrates, in which it is confined primarily to a smaller number of
reptile,
amphibian, and
fish species, as well as some foul-smelling or aggressive
mammals.
Pitohuis, red and black birds whose toxic feathers and skin apparently comes from the poisonous beetles they ingest, may also be included. It has been proposed that aposematism played a role in human evolution, with body odour carrying a warning to predators of large
hominins able to defend themselves with weapons. Perhaps the most numerous aposematic vertebrates are the poison dart frogs (family:
Dendrobatidae). These neotropical anuran amphibians exhibit a wide spectrum of coloration and toxicity. Some species in this poison frog family (particularly
Dendrobates,
Epipedobates, and
Phyllobates) are conspicuously coloured and sequester one of the most toxic
alkaloids present in living species. Although these frogs display an extensive array of coloration and toxicity, there is very little genetic difference between the species. Many insects, such as
cinnabar moth caterpillars, acquire toxic chemicals from their host plants. Among mammals,
skunks and
zorillas advertise their foul-smelling chemical defences with sharply contrasting black-and-white patterns on their fur, while the similarly-patterned
badger and
honey badger advertise their sharp claws, powerful jaws, and aggressive natures. Some brightly coloured birds such as
passerines with contrasting patterns may also be aposematic, at least in females; but because male birds are often brightly coloured through
sexual selection, and their coloration is not correlated with edibility, it is unclear whether aposematism is significant. The sound-producing rattle of
rattlesnakes is an acoustic form of aposematism. Sound production by the caterpillar of the Polyphemus moth,
Antheraea polyphemus, may similarly be acoustic aposematism, connected to and preceded by chemical defences. Similar acoustic defences exist in a range of
Bombycoidea caterpillars.
In marine ecosystems The existence of aposematism in marine ecosystems has been debated. Many marine organisms, particularly those on coral reefs, are brightly coloured or patterned, including sponges, corals, molluscs, and fish, with little or no connection to chemical or physical defences. Caribbean reef
sponges are brightly coloured, and many species are full of toxic chemicals, but there is no statistical relationship between the two factors.
Nudibranch molluscs are the most commonly cited examples of aposematism in marine ecosystems, but the evidence for this has been contested, mostly because (1) there are few examples of
mimicry among species, (2) many species are nocturnal or cryptic, and (3) bright colours at the red end of the colour spectrum are rapidly attenuated as a function of water depth. For example, the Spanish Dancer nudibranch (genus
Hexabranchus), among the largest of tropical marine slugs, potently chemically defended, and brilliantly red and white, is nocturnal and has no known mimics. Mimicry is to be expected, since
Batesian mimics with weak defences can gain a measure of protection from their resemblance to aposematic species. Other studies have concluded that nudibranchs such as the slugs of the family
Phyllidiidae from Indo-Pacific coral reefs are aposematically coloured.
Müllerian mimicry has been implicated in the coloration of some Mediterranean nudibranchs, all of which derive defensive chemicals from their sponge diet. '' are considered by some to be aposematic. The
crown-of-thorns starfish, like other starfish such as
Metrodira subulata, has conspicuous coloration and conspicuous long, sharp spines, as well as
cytolytic saponins, chemicals which could function as an effective defence; this evidence is argued to be sufficient for such species to be considered aposematic. s are aposematic, and that the honest signals, both chromatic and achromatic, that they provide to predators each independently reduce the rate of attack.
Blue-ringed octopuses are venomous. They spend much of their time hiding in crevices whilst displaying effective camouflage patterns with their dermal
chromatophore cells. However, if they are provoked, they quickly change colour, becoming bright yellow with each of the 50-60 rings flashing bright iridescent blue within a third of a second. It is often stated this is an aposematic warning display, but the hypothesis has rarely if ever been tested. == Behaviour ==